Starlit: Privacy-Preserving Federated Learning to Enhance Financial Fraud Detection

Aydin Abadi; Bradley Doyle; Francesco Gini; Kieron Guinamard; Sasi Kumar Murakonda; Jack Liddell; Paul Mellor; Steven J. Murdoch; Mohammad Naseri; Hector Page; George Theodorakopoulos; Suzanne Weller

Paper 2024/090

Starlit: Privacy-Preserving Federated Learning to Enhance Financial Fraud Detection

Aydin Abadi

, University College London

Bradley Doyle, Privitar

Francesco Gini, Privitar

Kieron Guinamard, Privitar

Sasi Kumar Murakonda, Privitar

Jack Liddell, Privitar

Paul Mellor, Privitar

Steven J. Murdoch

, University College London

Mohammad Naseri, Flower Labs

Hector Page, Privitar

George Theodorakopoulos, Cardiff University

Suzanne Weller, Privitar

Abstract

Federated Learning (FL) is a data-minimization approach enabling collaborative model training across diverse clients with local data, avoiding direct data exchange. However, state-of-the-art FL solutions to identify fraudulent financial transactions exhibit a subset of the following limitations. They (1) lack a formal security definition and proof, (2) assume prior freezing of suspicious customers’ accounts by financial institutions (limiting the solutions’ adoption), (3) scale poorly, involving either $O(n^2)$ computationally expensive modular exponentiation (where $n$ is the total number of financial institutions) or highly inefficient fully homomorphic encryption, (4) assume the parties have already completed the identity alignment phase, hence excluding it from the implementation, performance evaluation, and security analysis, and (5) struggle to resist clients’ dropouts. This work introduces Starlit, a novel scalable privacy-preserving FL mechanism that overcomes these limitations. It has various applications, such as enhancing financial fraud detection, mitigating terrorism, and enhancing digital health. We implemented Starlit and conducted a thorough performance analysis using synthetic data from a key player in global financial transactions. The evaluation indicates Starlit’s scalability, efficiency, and accuracy.

Metadata

Available format(s): PDF
Category: Applications
Publication info: Preprint.
Keywords: Private Set Intersection Federated Learning
Contact author(s): aydin abadi @ ucl ac uk
sasi murakonda @ privitar com
s murdoch @ ucl ac uk
mohammad @ flower dev
theodorakopoulosg @ cardiff ac uk
suzanne weller @ privitar com
History: 2024-01-22: revised; 2024-01-19: received; See all versions
Short URL: https://ia.cr/2024/090
License: CC BY

BibTeX

@misc{cryptoeprint:2024/090,
      author = {Aydin Abadi and Bradley Doyle and Francesco Gini and Kieron Guinamard and Sasi Kumar Murakonda and Jack Liddell and Paul Mellor and Steven J. Murdoch and Mohammad Naseri and Hector Page and George Theodorakopoulos and Suzanne Weller},
      title = {Starlit: Privacy-Preserving Federated Learning to Enhance Financial Fraud Detection},
      howpublished = {Cryptology ePrint Archive, Paper 2024/090},
      year = {2024},
      note = {\url{https://eprint.iacr.org/2024/090}},
      url = {https://eprint.iacr.org/2024/090}
}